HYBUILD is a group of 21 partners from 9 countries. Every month, a new HYBUILD partner is introduced in our Blog section. Today, AIT.

AIT – In a nutshell

The AIT Austrian Institute of Technology, Austria’s largest Research and Technology Organisation with more than 1000 employees, is taking a leading position in the Austrian innovation system.  With its eight Centers, AIT regards itself as a highly specialized research and development partner for industry and concerns itself with the key infrastructure topics of the future.

At the AIT Center for Energy, around 200 employees are developing solutions towards a sustainable energy system of tomorrow. Many years of experience and scientific excellence of the AIT staff, as well as a high-quality laboratory infrastructure and a worldwide innovation network offer companies innovative and applied research services and thus a clear competitive advantage in this future market. The Center for Energy’s thematic portfolio is based on three central systems: Sustainable energy infrastructure, decarbonisation of industrial processes and plants, as well as innovative technologies and solutions for enabling sustainable urban transformation (buildings, cities). The Center for Energy has gained more than 20 years of experience in managing and participating in large-scale national and international R&D projects.

AIT role in HYBUILD

AIT is responsible for the design of the Continental hybrid sub-system. The Continental hybrid sub-system uses a latent storage which is directly integrated into the heat pump cycle to utilize the sensible heat of the hot refrigerant after the compressor for Domestic Hot Water (DHW). AIT will perform system simulations of the hybrid sub-system which will help to design and control the lab-test prototype and the demo prototype. Furthermore, experimental tests of the Continental hybrid sub-system will be carried out in AIT’s laboratories under controlled environmental conditions. Additionally, AIT leads the “Hybrid storage sub-systems” work package of the project.

Meet our staff

 

Dr. Johann Emhofer

Johann Emhofer has been working as a scientist for the AIT Austrian Institute of Technology, Center for Energy, since 2012 in the area of Thermal Energy Systems with a special focus on heat pump technologies. Prior to his engagement at AIT, he was a project assistant at the Atominstitut of the Vienna University of Technology. Johann holds a master’s degree in Technical Physics and a doctorate in Low-temperature Physics/Superconductivity, both of the Vienna University of Technology.

 

Dr. Tilman Barz

Tilman Barz has been a Senior Scientist at AIT, Center for Energy, since 2014. He has more than 10 years of experience in conducting research projects on process dynamics and operation, process an automation control, model validation, and numerical methods. Prior to his engagement at AIT, he led a research group in the field of model-based analysis and optimization of chemical and biological systems at the Technical University of Berlin. Tilman holds a master’s degree in Energy and Chemical Engineering and PhD in Process / Control & Automation from the Technische Universität Berlin.

 

Dr. Klemens Marx

Klemens Marx has been a Scientist in the AIT Center for Energy since mid-2015 and is particularly involved with research issues in the field of integrating renewable energy technologies into industrial and commercial processes. Klemens has many years of experience as a scientist in R&D projects and has worked before AIT as a consulting engineer in the field of oil and gas as well as biogas treatment using membrane processes. He holds a doctorate in chemical engineering and studied mechanical engineering with a focus on energy technology, alternative energy systems and thermal turbomachinery at the Vienna University of Technology.

 

Hybrid solutions are needed, inherently addressing the seamless conversion and integration of renewable electricity and heat, as to anticipate the future energy grid that will fully allow an exchange of different energy carriers.

HYBUILD goes beyond  the current state of the art on energy storage for residential buildings through the development of two innovative compact hybrid electrical/thermal storage systems for stand-alone and district connected buildings.

Spread the word and send an HYBUILD Postcard to your #EeB #EnergyStorage #RES colleagues !

HYBUILD Deliverable 7.6 – Stakeholder Advisory Board (SHAB) – is now available to download.

HYBUILD Deliverable 7.3 – Flipbook – is now available to download.

HYBUILD Deliverable 8.1 – Internal and external communication strategy – is now available to download.

HYBUILD Deliverable 4.1 – Smart System Algorithms – is now available to download

Dynamic simulations of thermal and electric systems integrated into the building could become fundamental for analysis of complex systems. Especially when dealing with storages, both thermal and electric, static calculations are not enough for studying all the involved effects. Moreover, the influence that one technology’s behaviour has on the whole system can be analysed if all the parts of a system are simulated together. For these reasons, this report presents the modular structure used for developing the simulation environment where each component and sub-system of the HYBUILD integrated solution constitutes a module, building included. This approach allows for updating a sub-system numerical model, to develop the whole layout model before designing all the parts, or to replace a component/sub-system without losing the already created connections.

This report presents the sub-systems and core components numerical models as defined in the GA, developed within the project and used in the proposed systems layouts.

HYBUILD Deliverable 3.1 – Modular flow sheet simulation of the hybrid (sub-)system is now available to download.

This report provides a comprehensive description of the simulation models for dynamic flowsheet simulations of the HYBUILD hybrid sub-systems. The presented models are our tools to develop and design the individual components on the one hand and the detailed schemes of the sub-systems on the other hand. In this report, we show how connections of individual developed components to sub-systems with basic control strategies are realized and discuss them with the aid of typical examples. By means of lab-scale experiments in WP2 and WP3, the presented models will be validated in the upcoming months. Figure 1 shows a Mediterranean – and Figure 2 shows a Continental-type hybrid sub-system realized in the Dymola/Modelica environment.

HYBUILD Deliverable 7.1 – Dissemination and Exploitation plan is now available to download.

HYBUILD Dissemination and Exploitation is an ongoing dialogue with potential users during the project, more especially with the relevant stakeholders’ groups specifically interested in the project outcomes, which include professionals (designers, ICT installers, energy advisors), construction and engineering companies, manufacturers (ICT, BMS, storage, thermal equipment), building owners/facility managers, government, municipalities (building and energy regulators, standardization bodies), academia, scientific community, and the general public.